A versatile “Synthesis Tag” (SynTag) for the chemical synthesis of aggregating peptides and proteins

Pub Date : 2023-09-05 DOI:10.26434/chemrxiv-2023-7mz2c
Héloïse Bürgisser, Elyse T. Williams, Robin Lescure, Adhvitha Premanand, Aliénor Jeandin, Nina Hartrampf
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Abstract

Solid-phase peptide synthesis (SPPS) and native chemical ligation (NCL) are powerful methods for obtaining peptides and proteins that are otherwise inaccessible. Nonetheless, numerous sequences are difficult to prepare via SPPS, and cleaved peptides often have low solubility. To address these challenges, we developed a “Synthesis Tag” consisting of six arginines connected via cleavable MeDbz linker. “SynTag” effectively improves batch- and flow-SPPS of “difficult sequences”, enhances solubility of the cleaved peptides and provides direct access to native sequences by hydrolysis, or peptide thioesters for NCL.. We demonstrate its utility in the first chemical synthesis of the MYC transactivation domain (143 AA) with a single NCL. We envisage SynTag to become a broadly applicable tool that enables the synthesis and study of previously unattainable peptides and proteins.
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用于聚合肽和蛋白质的化学合成的多功能“合成标签”(SynTag)
固相肽合成(SPPS)和天然化学结扎(NCL)是获得难以获得的肽和蛋白质的有力方法。尽管如此,许多序列很难通过SPPS制备,并且切割的肽通常具有低溶解度。为了解决这些挑战,我们开发了一种“合成标签”,由六个精氨酸组成,通过可切割的MeDbz连接器连接。“SynTag”有效地改善了“困难序列”的批处理和流动spps,提高了裂解肽的溶解度,并通过水解或肽硫酯为NCL提供了直接访问天然序列的途径。我们首次用一个NCL化学合成了MYC转激活结构域(143aa)。我们设想SynTag成为一个广泛适用的工具,能够合成和研究以前无法获得的肽和蛋白质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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